User manual CADENCE DESIGN SYSTEMS CADENCE SIP DESIGN DATASHEET

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[. . . ] Conventional EDA solutions have failed to automate the design processes required for efficient SiP development. By enabling and integrating design concept exploration, capture, construction, optimization, and validation of complex multi-chip and discrete substrate assemblies on PCBs, Cadence® SiP design technology streamlines the integration of multiple high­pincount chips onto a single substrate. product development. Cadence SiP solutions seamlessly integrate with Cadence Encounter® technology for die abstract co-design, Cadence Virtuoso® technology for RF module design, and Cadence Allegro® technology for package/ board co-design. See Figure 1. Architect System Arch Partition into Components Concept Planning Feasibility and Analysis Layout Multi-Domain Multi-Technology Implemtation System Integration and Verification Manufacturing CONNECTIVITY-DRIVEN SiP CO-DESIGN The Cadence connectivity-driven SiP flow focuses on the design challenges of integrating multiple large high­pin-count chips onto a single substrate. [. . . ] It enables the creation of a single, circuit simulation-capable, top-level SiP RF module schematic that includes the RF/ analog ICs and substrate-level passive components (including packaged and embedded parameterized discretes). This schematic drives detailed SiP module layout that includes constraint-driven interconnect routing and full SiP tapeout manufacturing preparation. Cadence SiP RF design includes four focused technologies for full SiP RF module design and implementation: · CadenceSiPRFArchitect(XL) · CadenceSiPLayout(XL) · CadenceChipIntegrationOption · CadenceSiPDigitalSI Virtuoso Schematic Editor Virtuoso ADE AMS UltraSim Spectre RF ADE XL (MTS) Off-chip devices Off-the-shelf die Embedded (parameterized) devices SiP RF Architect SiP Layout/Chip Integration Option Virtuoso Layout Suite XL SiP Digital SI with Integrated 3D Solvers Third-Party Full-Wave Solvers Assura RF Extraction Figure 2: Cadence SiP RF/AMS design of substrate-level embedded RF passive devices. It also enables two key flows: a bi-directional engineering change order (ECO)andlayoutversusschematic(LVS) flow between the substrate layout and the Virtuoso Analog Design Environment, and a SiP substrate-level parasitic extraction backannotation flow into predefined simulation testbenches. For RF/ analogICsdesignedwithVirtuosoLayout Editor, SiPRFArchitectXLcanexport a design-ready SiP die footprint that includes post-wafer processing geometry adjustments. · Automatescircuitsimulation testbench management and parasitic backannotation from Cadence SiP LayoutwiththeChipIntegrationOption Cadence SiP Layout/Chip Integration Option SiPLayoutwiththeChipIntegration Option provides a complete Virtuoso schematic connectivity-driven package substrate layout environment for SiP RF module physical design. It features integrated I/O planning co-design capabilities (for digital ICs) and 3D diestack creation and editing. It supports all packaging methods including PgA, BgA, micro-BgA, chip scale, flip-chip, andwirebondattach. SiPLayout/Chip Integration Option is based on a co-design process that manages physical, electrical, and manufacturing interfaces between design components--across all associated design fabrics--allowing designers to make tradeoffs and optimize the entire system interconnect. Full online and batch design-rule checking (DRC) supports the complex and unique requirements of all combinations of laminate, ceramic, and deposited substrate technologies. SiPLayout/ChipIntegrationOptionalso supports multiple cavities, complex shapes, and interactive and automatic wirebonding. Benefits · Providesasingle, top-levelVirtuoso schematic- and simulation-driven environment for RF ICs, SiP RF module substrate, and embedded RF passive elements · Supportsbi-directionalECOandLVS flow between RF/AMS IC design team and SiP RF module layout team · Supportssubstrate-levelRFpassive parameterized cell (Pcell) creation via Virtuoso top-level design definition · SpeedsdesignwithdirectexportofSiP substrate-ready IC die footprints from VirtuosoLayoutEditor Cadence SiP RF Architect XL SiPRFArchitectXLprovidesthe integration and flow environment between the Virtuoso Analog Design Environment(and/orVirtuosoLayout Suite)andCadenceSiPLayoutwiththe Chip Integration Option. It enables the creation of a single, circuit simulationcapable, top-level SiP RF module schematic that includes the RF/analog ICs required for the final SiP design. SiP RFArchitectXLprovidesschematic-level pre layout definition and characterization www. ca de nce . com CADEnCE SiP DESIgn 3 Benefits · Providesbi-directionalECOandLVS flow between RF design team and SiP RF module layout team · Supportssubstrate-levelRFpassivePcell creation through Virtuoso top level driven design · AllowsdirectimportofSiPsubstrateready IC die footprints from Virtuoso LayoutEditor · Speedsdiestackassemblyand optimization with 3D creation/editing · OptimizesICI/Opadring/array co-design and connectivity at IC, substrate, and system levels · Minimizeslayerusagebyoptimizing SI and routability-driven connectivity assignment between ICs and substrate · Reducestedious, time-consuming manual breakout editing via flip-chip die autoroute breakout · Constraint-drivenHDIdesignwith automation-assisted interactive routing enables greater design miniaturization, speeds implementation, and reduces potential errors · IncludescomprehensivesubstrateDFM capabilities for rapid manufacturing preparation · IncludestheCadence3DDesignViewer and DRC for accurate, full 3D wire bondability verification, design review debug, and design documentation for assembly and test thecompletedSiP. EmbeddedLVSroutines and ECO management capabilities ensure that the logical SiP definition matches the physical SiP implementation, including any ICs that are partitioned and co-designed as part of the SiP. ring and bump matrix within the context of the SiP substrate editing canvass. The I/O planner is based on Encounter technology, ensuring it is 100 percent compatible with the chip design team's IC tools and provides complete IC technology file compliance. Note: This feature is not available on Windows (Linux / Unix only). Figure 8: 3D die stack editor Figure 10: Embedded signal integrity simulation 3D DESIGN VIEWER The Cadence 3D Design Viewer is a full, solid model 3D viewer and 3D wirebond DRC solution for complex IC package designs. It allows users to visualize and investigate an entire design, or a selected design subset such as a die stack or complex via array. It also provides a common reference point for cross-team design reviews. SUBSTRATE FLOORPLANNER The floorplanner allows the physical prototyping and evaluation of various substrate-level SiP implementation concepts. It provides a full rules-driven, connectivity-based capability that ensures a correct-by-construction approach. The die abstracts, discrete components, and connectivity and constraint data is used to build the physical SiP implementation. The SiP architect can then use the graphical, intuitive editing tools to construct and evaluate critical sections of the design. PACKAGE MODELING FOR SYSTEM-LEVEL ANALYSIS CreationofIBIS, RLC, orCadence DMLinterconnectmodelsiseasily accomplished, either for a selected set of nets or for the entire package. Design teams can then easily reuse these models at the system level to ensure that package effects are properly considered when optimizing PCB cost/performance tradeoffs. POWER DELIVERY NETWORK DESIGN FOR LOW POWER An integrated analysis environment enables sufficient, efficient, and stable power delivery network design through the optimization of the package impedance profile and minimizes power supply voltage ripple. Figure 9: 3D design viewer EMBEDDED INTEGRATION WITH THIRD-PARTY 3D FIELD SOLVERS Figure 7: Substrate floorplanner INTEGRATED CONSTRAINT MANAGEMENT The spreadsheet-based integrated constraint management system provides the definition, application, and management of interconnect constraints and topologies at the physical prototyping and implementation level. Designers can import constraints and apply them to industry-standard bus protocols--such as PCI Express and DDR2--through hierarchical interconnect topology templates that are available from Cadence as well as various IC vendors. [. . . ] It also supports all packaging methods: PgA, LGA, BGA, micro-BGA, andchipscale, as well as flip-chip and wirebond attach methods. An embedded, push-button, full 3D quasi-static field solver enables the extraction and creation of detailed, accurategeometricRLCorS-Parameter package simulation models for use during PCB design. FLOW INTEGRATION WITH VIRTUOSO LAYOUT EDITOR SiPRFArchitectXLprovidesasingle, integrated design flow built around the Virtuoso DFII framework. It also provides a single, system-level, simulation-ready Virtuoso schematic for RF/analog die, SiP substrate, and packaged and embedded passive components. It enables direct export of SiP-level IC die footprints from VirtuosoLayoutEditorandschematicdriven SiP substrate-level RF Pcell creation (Figure 15). [. . . ]

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